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https://github.com/TomHarte/CLK.git
synced 2024-11-29 12:50:28 +00:00
Made an attempt to do the time base conversion upfront, saving a lot of hassle and allowing greater prediction.
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@ -8,6 +8,7 @@
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#include "TimedEventLoop.hpp"
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#include "../NumberTheory/Factors.hpp"
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#include <algorithm>
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using namespace Storage;
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@ -16,29 +17,34 @@ TimedEventLoop::TimedEventLoop(unsigned int input_clock_rate) :
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void TimedEventLoop::run_for_cycles(int number_of_cycles)
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{
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_time_into_interval += (unsigned int)_stepper->step((uint64_t)number_of_cycles);
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while(_time_into_interval >= _event_interval.length)
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_cycles_until_event -= number_of_cycles;
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while(_cycles_until_event <= 0)
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{
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process_next_event();
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}
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}
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unsigned int TimedEventLoop::get_cycles_until_next_event()
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{
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return (unsigned int)std::max(_cycles_until_event, 0);
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}
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void TimedEventLoop::reset_timer()
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{
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_time_into_interval = 0;
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_stepper.reset();
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_error.set_zero();
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_cycles_until_event = 0;
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}
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void TimedEventLoop::reset_timer_to_offset(Time offset)
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{
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unsigned int common_clock_rate = NumberTheory::least_common_multiple(offset.clock_rate, _event_interval.clock_rate);
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/* unsigned int common_clock_rate = NumberTheory::least_common_multiple(offset.clock_rate, _event_interval.clock_rate);
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_time_into_interval = offset.length * (common_clock_rate / offset.clock_rate);
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_event_interval.length *= common_clock_rate / _event_interval.clock_rate;
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_event_interval.clock_rate = common_clock_rate;
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if(common_clock_rate != _stepper->get_output_rate())
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{
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_stepper.reset(new SignalProcessing::Stepper(_event_interval.clock_rate, _input_clock_rate));
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}
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}*/
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}
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void TimedEventLoop::jump_to_next_event()
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@ -49,43 +55,19 @@ void TimedEventLoop::jump_to_next_event()
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void TimedEventLoop::set_next_event_time_interval(Time interval)
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{
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// figure out how much time has been run since the last bit ended
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if(_stepper)
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{
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_time_into_interval -= _event_interval.length;
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if(_time_into_interval)
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{
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// simplify the quotient
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unsigned int common_divisor = NumberTheory::greatest_common_divisor(_time_into_interval, _event_interval.clock_rate);
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_time_into_interval /= common_divisor;
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_event_interval.clock_rate /= common_divisor;
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unsigned int common_divisor = NumberTheory::greatest_common_divisor(_error.clock_rate, interval.clock_rate);
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uint64_t denominator = (interval.clock_rate * _error.clock_rate) / common_divisor;
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uint64_t numerator = (_error.clock_rate / common_divisor) * _input_clock_rate * interval.length - (interval.clock_rate / common_divisor) * _error.length;
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// build a quotient that is the sum of the time overrun plus the incoming time and adjust the time overrun
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// to be in terms of the new quotient
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unsigned int denominator = NumberTheory::least_common_multiple(_event_interval.clock_rate, interval.clock_rate);
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interval.length *= denominator / interval.clock_rate;
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interval.clock_rate = denominator;
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_time_into_interval *= denominator / _event_interval.clock_rate;
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}
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}
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else
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{
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_time_into_interval = 0;
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}
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// store new interval
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_event_interval = interval;
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// adjust stepper if required
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if(!_stepper || _event_interval.clock_rate != _stepper->get_output_rate())
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{
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_stepper.reset(new SignalProcessing::Stepper(_event_interval.clock_rate, _input_clock_rate));
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}
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_cycles_until_event = (int)(numerator / denominator);
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_error.length = (unsigned int)(numerator % denominator);
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_error.clock_rate = (unsigned int)denominator;
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_error.simplify();
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}
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Time TimedEventLoop::get_time_into_next_event()
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{
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Time result = _event_interval;
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result.length = _time_into_interval;
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// result.length = _time_into_interval;
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return result;
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}
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@ -48,6 +48,8 @@ namespace Storage {
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*/
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void run_for_cycles(int number_of_cycles);
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unsigned int get_cycles_until_next_event();
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protected:
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/*!
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Sets the time interval, as a proportion of a second, until the next event should be triggered.
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@ -86,9 +88,9 @@ namespace Storage {
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private:
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unsigned int _input_clock_rate;
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int _cycles_until_event;
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Time _event_interval;
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std::unique_ptr<SignalProcessing::Stepper> _stepper;
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uint32_t _time_into_interval;
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Time _error;
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};
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}
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